氧化铒(Er_2O_3)所具有的优异的热动力学稳定性而使其在受熔钚污染应用方面占有极其重要的地位。例如在核武器的应用方面。 在拥有材料科学与技术、工程科学与应用以及物理学等多个学科部门的美国LosAlomo国家实验室,科学家正在武器部件上实施一种薄的氧化铒涂层的数种方法。 方法之一是喷射溶液涂层,这是一项多步骤的涂层工艺。在这项工艺中,一个自动化的机器人系统控制逐次喷射的氧化铒和硝酸铒浆液涂层的厚度和密度。经过6-8次循环喷射,氧化铒原始涂料逐渐堆积。喷射的涂层在每次循环喷射之间,在惰性气氛 The excellent thermodynamic stability of erbium oxide (Er 2 O 3) makes it an extremely important position in the application of contaminated plutonium. For example, in the application of nuclear weapons. In Los Alomo National Laboratory, which has multiple disciplines such as Materials Science and Technology, Engineering Science and Applications, and Physics, scientists are implementing several methods for thin erbium oxide coatings on weapons components. One of the ways is to spray the solution coating, which is a multi-step coating process. In this process, an automated robotic system controls the thickness and density of successive erbium and erbium nitrate slurry coatings. After 6-8 cycles of injection, erbium oxide original coating gradually accumulated. The sprayed coating is sprayed between each cycle under an inert atmosphere